DE1945799A1 - Punching or cutting press with guides for the tool plates - Google Patents

Description

Dipi.-ing. Walter Meissner dipping. Herbert Tischer

1 BERLIN 33, Herbertstrasse 22. MUNICH

Telephone: 8 87 72 37 - Wired word: Invention Berlin Postal checking account: W. Meissner, Berlin West 12282

Bank account: W. Meissner, Berliner Bank A.-O, Depka 3β, L K Berlln-Halensee, KurfOrstendamm 130 Account No. 95 716 j BERLIN 33 (GRUNEWALD) den Herbertstrasse 22

Wd. 23610

porter Precision Products Company
2734 Banning Road, Cincinnati, Ohio (US)

Punching or cutting press with guides for the tool plates

The invention relates to punching or cutting presses with an upper tool plate that carries the punch, and with a lower tool plate _t in which the counter tool or the die is arranged. It relates to the design of the guide devices for the tool plates »

According to the invention, spring bodies are provided in the guide devices, which the press after the operation open again and strip the workpiece from the punching or cutting tool.

In the press according to the invention, the upper tool plate is not connected to the push plate of the press * Es Rather, it is only necessary to fix the lower die plate to the base plate of the press · As a result, can With these presses you can install the tool plates quickly and easily, while with the usual presses the upper one and the lower tool plate must be precisely aligned with the push plate and the base plate « But if, as with the invention, the upper tool plate is not connected to the cleat, one must Install a spring between the tool plates, which lifts them apart and strips the workpiece from the ram

00981 2/1 27 A - ² "

It is disadvantageous if separate spring assemblies are provided that MA should bring this off and stripping "Such spring assemblies are relatively expensive to produce and take a portion of the space between the mold plates one, which could be exploited elsewhere else *

A feature of the invention is a Fülirungs device that should fulfill three tasks, namely it should 1 · the upper and the lower tool plate and thus the punch and the Keep the counter tool precisely aligned, 2, provide a spring force that lifts the tool plates apart when the pressing pressure ceases and 3 · enable a force, which stripped the workpiece from the press ram

According to the invention, the upper tool plate is with the Tool arranged so that it is precisely aligned with the lower tool plate by several guides. It is characterized in that each guide has an ear attached to the upper die plate and can slide in a socket attached to the lower die plate. In the drill lies a spring body, which presses the two tool plates from one another, being against the upper tool plate and against a pressure point which in turn is supported on the lower tool plate

This pressure point can be a fixed stop or the head of a pressure pin that protrudes into the guide tube · The pressure pin acts in the guide tube on the end of the Spring body, while the other end rests on the upper pressure plate or on the upper tool plate The spring body is tensioned when the two tool plates are brought closer to each other and then releases the energy strips the workpiece from the tool

The spring body can be of any type, ζ · Β · a body made of polyurethane or rubber, a helical spring, a plate } spring group _9, a compressed air spring or the like. A preferred one

009812/1274 - 3 -

The shape of the spring is a polyurethane body, the length of which in the relaxed position extends the upper tool plate that raises the work space, between the tool plates is open · This spring body can consist of any polyurethane mixture, advantageously with a hardness Clay 75 shore D · This mixture has the property that it deforms under pressure, but its original shape again accepts when the pressure is removed

According to the invention, the spring body is dimensioned so that his Volume is less than the volume of the cavity in which

Iv • r cherishes, both in the case of dispensed tool plates and Even when the tool plates are depressed · When the tool plates are in the open position, the spring element is in the substantially relaxed · If, on the other hand, the push plate presses the upper tool plate down and the punch presses through the workpiece, the spring body is deformed and shortened, whereby it stores a certain spring force « When the impact plate then moves upwards again, the spring body returns to its original, longer shape, lifting the upper tool plate, opening the work area and removing the workpiece from the punch «

One of the main advantages of the guide device According to the invention, its extraordinary simplicity at low manufacturing costs is a preferred form of the Spring body is a cylinder with a cone-shaped taper Ends · This shape can be easily cast or worked out from a cylindrical polyurethane rod · The guide device consists of only a few parts and can in the event of malfunctions or wear and tear. individual parts can be repaired quickly and easily

Since the spring body lies within the guide tubes and, in the preferred embodiment, no external ones Helical springs or the like are required, the result is a very compact design of the guide device that does not -

- 4 -009812/12 7 A

essential tree is needed between the two tool plates.

The invention will be explained with reference to the accompanying drawings, in which:

Fig. 1 is a side view of a preferred type of punching or cutting press according to the invention that the tool is open,.

FIG. 2 shows the face according to FIG. 1 with the tool closed,

Fig. 3 is a plan view of the upper pressure plate after Line 5-5 in Fig. 1,

FIG. 4 shows a section through the guide along the line 4-4 in FIG. 3 with the tool open,

FIG. 5 shows a section corresponding to FIG. 4 with the closed Tool and

Figures 6 and 7 are a section through a modified form of FIG Guided tour with open and closed mold *

Details of the arrangement of the guide devices according to of the invention are shown in Figures 4 and 5, while the manner in which The guide devices are built into the overall arrangement 11, as can be seen in FIGS. 1 and 2 * The guide can of course also be used in connection with other types of such presses, so that Figs are only to be regarded as an example · The arrangement discussed here can also be used in stamping presses, in which the tool opening lies in a lower tool plate which is arranged on a base plate 15 or in which the tool opening is located directly in the lower base plate 15, which consists of a corresponding metal Anyway, can the one suggested here ?! Guide device, which is described for a hole punch, also for cutting tools or combined cutting and punching tools to be used·

In detail, Flg. 1 and 2 an overall arrangement 11 with an upper pressure plate 12, which over an upper tool

009812/1274 ■ - 5 -

plate is 13 and connected thereto by screws 19 (cf. · Mg · 3 to 5) · on the upper tool plate 13 is a projecting downwardly punch 14 attached · The overall assembly 11 further includes a lower die plate 15t ^a uf the counter-tool, the 16 is attached · Above the counter tool 16 is the stripping plate 17 »which is provided with a horizontal feed-through opening 18 for receiving the workpiece 20»

The opening 21 in the counter tool 16 is designed in the same way the punch 14, the opening 22 in the stripping plate 17 has a small air gap compared to the punch. The lower tool plate 15 has a slightly larger opening 23 «the issuing of the punch 24, that of the Workpiece 20 is separated by the punch 14, allows · In this arrangement, the upper and lower Tool plate 13 and 15 held precisely aligned by four guide devices

Of course, instead of the four shown guide devices, two diagonally opposite one another can also be used Guide devices, for example, 10a and 10b in Pig · 3 »are used · In another embodiment, only two guide devices can be used in the case of a design guided on the rear side corresponding to 10b and 10c in Pig. 3 can be used. Another possibility is a center guide with two guide devices, which are between the guides 10a and IOc and 10b and 10d (see Fig. 3)

Details of a preferred embodiment of the guide devices are shown in FIGS. 4 and 5, each of the guides in FIG is designed in the same way. According to FIG. 4, the guide consists of a cylindrical steel tube 25 “cLas in the upper one Tool plate 13 is attached, for example "B" by a press fit in a a suitable hole or by caulking, welding or the like · You can also use a special socket, such as this is shown in FIGS. 6 and 7 and is described later according to "g

009812/1274

The tube 25 extends down through a socket 26 which is in a hole in the lower die plate 15 is. any Way is attached. The socket 26 can be made in one piece with the tool plate made of a corresponding material exist and is with a hole 25 corresponding to the drill Mistake. The tube 25 can slide in the socket 26, but is always guided precisely aligned with the socket. The tube 25 passes below through the lower tool plate 15 and takes a pressure pin 27 · This has a head 28, the is only slightly smaller than the inner diameter of the pipe 25, while its shaft 30 can have a smaller diameter »The lower end of the shaft 30 is supported against the base plate 31 of the press. The pressure pin 27 is in the tube 25 passed through an O-ring 32, which is in an inner groove on the lower end of the tube 25 is

In the tube 25 there is a spring body 33 made of plastic, e.g. polyurethane or the like. This material has a high elasticity and compressive strength; he is not compressible, but can evade under load. When the load ceases, the plastic body returns to its original shape murück

It was determined that a polyurethane with a hardness of 75 shore D is particularly useful; this is in the United States of America under the trademark "Flex-I-Gast" im Trade. Such substances are in the American patent 3 23 * 835 and in the publication of the Du Pont company with the title "Engineering Properties of urethane Elastomers" described. The person skilled in the art can then select the suitable substances, which are referred to below with the general term "urethane" for all suitable polyurethane mixtures.

As shown in FIGS. 4 and 5, the spring body 33 has on the Uhterf pool 35 of the upper pressure plate 12 and on the upper surface 36 of the pressure pin 28 has a somewhat smaller volume than that Cavity 34 · which is given by the tube 25. Furthermore,

as the drawing shows, the total length of the pressure pin 25:

009812/1274 " ⁷ ^

and the spring body 33 equal to the desired distance between the upper tool plate 13 and the base plate 31 > when the jaw is in the open position · There, as described later the lower tool plate 15 is attached to the base plate is, this overall length ensures that the desired feed opening is achieved at the end of each work pass · The Preferred embodiment of the spring body 33 according to FIGS. 4 and 5 shows a cylindrical central part with a conical shape End parts 33 and 40 ″ The diameter of the cylindrical Middle part 37 is suitably slightly smaller than the inner diameter of the tube 25, while the end faces of the parts 38 and 40 only part of this durometer, e.g. half, to have·

As shown in FIGS. 1 and 3, the lower tool plate 15 is attached to the base plate 31 by brackets 41 and 42. Every Clamp consists of a spacer block 44 which rests on the base plate 31 and carries the water surface of the lower tool plate 15. A bracket piece 45 rests on the surface of the tool plate 15 and is tightened by ε-inen screw bolts 46 ″ which engages in the base plate 31 ″ So the lower die plate and the spacer sheet 44 are fixed connected to each other and to the base plate 31

There is no between the upper die plate 13 or the upper pressure plate 12 and the push plate 47 of the press permanent connection. The upper pressure plate lies in a horizontal plane parallel to the lower surface 48 of the joint « plate 47 · The cleat 47 is at a distance from the pressure plate 12 when the cleat is at top dead center their stroke is. Then, when the cleat moves down, it lies down on the pressure plate 12 and presses it downward·

6 and 7 show another embodiment of the guide device according to the invention. The upper pressure plate 12 is attached to the tool plate 13 below it.

009812/1274 " ⁸ "

The guide tube 25 extends through a hole in the upper tool plate 13 and is located against the lower surface of the upper pressure plate 12 at _t. In this embodiment, the tube 25 is fixed by a bushing 51, for example by a press fit or in some other way. The bushing 51 is in turn connected to the upper tool plate 1J by screw bolts. For this purpose, the bush 51 has an annular flange 53 ». which engages in a corresponding hole 5 ^ in the upper tool plate 13

An upwardly projecting hub 55 is fastened with screws 56 on the lower tool plate 15. The lower tool plate has a hole 59 t ^ ⁰ - cLem d & s lower end of a tubular guide bushing 58 with a press fit or is fixed in another way. Several ball bearings 60, the ball cages of which are not shown, lie between the inner surface of the guide bushing 58 and the Outer surface of the tube 25 · As a result, the tube 25 is aligned exactly axially in the guide * bushing 58, but can shift in this due to the rolling movement of the ball bearings.

As shown in the embodiment according to FIGS. 4 and 5, a headed push pin 27 extends in the tube 25 upwards · The pressure bolt acts with its head 28 on the lower end of the conical taper 40 of the Spring body 33 which corresponds to the spring body described above. The upper end of the spring body 33 acts on the underside of the upper pressure plate 12. Otherwise, the overall arrangement of this embodiment is essentially the same as that of FIGS. 1 and 2, the lower die plate 15 being connected to the base plate of the press and the Pressure pin 27 is supported against this

Fig. 7 shows the position of the guide device when the Tools are in their closed position the spring body 33 is deformed and does not completely fill the Cavity 34 in the cylindrical tube 25 on the lower surface

009812/1274 " ⁹ "

the upper pressure plate 12 and on the head £ 28 of the pressure pin end 27 aas

Pig's devices. 1 to 5 and according to FIGS. 6 and 7 work in the same way. Therefore only the Operation of the type of construction of Figs. 1 to 5 will be described *

When the cleat 47 is in its upper position, has they are spaced from the upper pressure plate 12 so that the punches are in their open position after. Fig. 1 are. In this position, the punch 14 is not in entered the insertion slot 18 of the workpiece 20 so that the workpiece strip 20 through the slot 18 in a position above the opening 21 in the lower counter plate 16 can be pushed. If the cleat 47 is after moved below, it lies on the upper pressure plate 12 and presses this together with the upper tool plate 13 and the punch 14 downwards. During this downward movement, the guide device holds the punch 14 precisely aligned with respect to the opening 21 in the counter-tool. The tubes 25 engage in the guide bushings 26 downwards, where they are guided exactly in alignment «

During this movement of the upper pressure plate 12, the spring body 33 is deformed until it has approximately assumed the shape according to FIG. 5 at the end of the working stroke. In doing so, however, the spring body is not stressed beyond its elastic limit and does not completely fill the spaces 34 which are given by the tube 25 and the upper pressure plate 12 or the head 28 of the pressure bolt. During this downward movement, the punch 14 is pressed through the workpiece $ Q and separates the punch 24 from the workpiece 20. This punch falls through the opening 23 downwards.

When the cleat rises again, the spring bodies 33 take effect and resume their original longer shape as shown in FIG. 4. The spring bodies have the force to move the upper tool plate 13 and the upper pressure plate 12

-10 - 009812/1274

to their position according to Fig. 1 · They also exert the stripping force that is required to move the workpiece 20 to be stripped from the punch 14 · The Contact of the tubes 25 with the guide bushing en 26 both Tool plates in precisely aligned position

If with special designs an additional stripping force is required, this can be brought about by arranging tubular urethane spring bodies around the tubes 25 · These spring bodies are so high that they are deformed when the tools are closed You will then have the strength to open the tools when the pressure of the push plate ceases

009812/1274

Claims (1)

1545799 " ¹¹ " IS. SER 13 sheet Claims. or a cutting press with an upper die plate carrying a ram and a lower, the tool plate carrying the counter tool cooperates, the two tool plates being guided to one another by guide devices, characterized in that each Guide device (10) consists of a tube (25) carried by the upper tool plate (^ 2, 13), which is in a the guide bushing (26) attached to the lower tool plate (15) slides and in which a spring body (33) is arranged so that the two tool plates (13, 15) pushes apart by leaning against the upper pressure plate (12) and one on the base plate Pressure pin (27) supported 2 · Press according to claim 1, characterized in that each Vederbody (33) made of a plastic mass, preferably made of urethane, which does not completely fill the interior of the tube (25) between the upper pressure plate (12) ι2εΛ the head of the pressure pin (27) 3 · Press according to claim 2, characterized in that the The spring body (33) has an essentially cylindrical shape which tapers conically on one or on both end faces is· 4- · Press according to claim 1 to 3, characterized in that the guide tube (25) by ball bearings (60) held in ball cages in one on the lower tool plate (15) arranged guide bush (58) is guided 5 · Press according to claim 1 to 4 · characterized in that • a tubular spring body, advantageously made of urethane, is arranged on the outside of the guide tube (25) in such a way that it is between the lower guide bushing (26l / * and the upper tool plate (13 ) lies and zppefmfnge is pressed when pressing 009812/1274 L e e r s e 11 e